Add a bunch of const qualifiers

pull/170/head
jvoisin 2021-12-30 20:07:14 +01:00 committed by Daniel Micay
parent 75e26afdb6
commit 9142a9376b
1 changed files with 18 additions and 18 deletions

View File

@ -272,7 +272,7 @@ struct __attribute__((aligned(CACHELINE_SIZE))) size_class {
static const size_t slab_region_size = ARENA_SIZE * N_ARENA; static const size_t slab_region_size = ARENA_SIZE * N_ARENA;
static_assert(PAGE_SIZE == 4096, "bitmap handling will need adjustment for other page sizes"); static_assert(PAGE_SIZE == 4096, "bitmap handling will need adjustment for other page sizes");
static void *get_slab(struct size_class *c, size_t slab_size, struct slab_metadata *metadata) { static void *get_slab(const struct size_class *c, size_t slab_size, const struct slab_metadata *metadata) {
size_t index = metadata - c->slab_info; size_t index = metadata - c->slab_info;
return (char *)c->class_region_start + (index * slab_size); return (char *)c->class_region_start + (index * slab_size);
} }
@ -330,7 +330,7 @@ static void clear_slot(struct slab_metadata *metadata, size_t index) {
#endif #endif
} }
static bool get_slot(struct slab_metadata *metadata, size_t index) { static bool get_slot(const struct slab_metadata *metadata, size_t index) {
size_t bucket = index / 64; size_t bucket = index / 64;
return (metadata->bitmap[bucket] >> (index - bucket * 64)) & 1UL; return (metadata->bitmap[bucket] >> (index - bucket * 64)) & 1UL;
} }
@ -346,7 +346,7 @@ static void clear_quarantine(struct slab_metadata *metadata, size_t index) {
metadata->quarantine_bitmap[bucket] &= ~(1UL << (index - bucket * 64)); metadata->quarantine_bitmap[bucket] &= ~(1UL << (index - bucket * 64));
} }
static bool get_quarantine(struct slab_metadata *metadata, size_t index) { static bool get_quarantine(const struct slab_metadata *metadata, size_t index) {
size_t bucket = index / 64; size_t bucket = index / 64;
return (metadata->quarantine_bitmap[bucket] >> (index - bucket * 64)) & 1UL; return (metadata->quarantine_bitmap[bucket] >> (index - bucket * 64)) & 1UL;
} }
@ -356,7 +356,7 @@ static u64 get_mask(size_t slots) {
return slots < 64 ? ~0UL << slots : 0; return slots < 64 ? ~0UL << slots : 0;
} }
static size_t get_free_slot(struct random_state *rng, size_t slots, struct slab_metadata *metadata) { static size_t get_free_slot(struct random_state *rng, size_t slots, const struct slab_metadata *metadata) {
if (SLOT_RANDOMIZE) { if (SLOT_RANDOMIZE) {
// randomize start location for linear search (uniform random choice is too slow) // randomize start location for linear search (uniform random choice is too slow)
unsigned random_index = get_random_u16_uniform(rng, slots); unsigned random_index = get_random_u16_uniform(rng, slots);
@ -394,7 +394,7 @@ static size_t get_free_slot(struct random_state *rng, size_t slots, struct slab_
fatal_error("no zero bits"); fatal_error("no zero bits");
} }
static bool has_free_slots(size_t slots, struct slab_metadata *metadata) { static bool has_free_slots(size_t slots, const struct slab_metadata *metadata) {
#ifdef SLAB_METADATA_COUNT #ifdef SLAB_METADATA_COUNT
return metadata->count < slots; return metadata->count < slots;
#else #else
@ -415,7 +415,7 @@ static bool has_free_slots(size_t slots, struct slab_metadata *metadata) {
#endif #endif
} }
static bool is_free_slab(struct slab_metadata *metadata) { static bool is_free_slab(const struct slab_metadata *metadata) {
#ifdef SLAB_METADATA_COUNT #ifdef SLAB_METADATA_COUNT
return !metadata->count; return !metadata->count;
#else #else
@ -424,7 +424,7 @@ static bool is_free_slab(struct slab_metadata *metadata) {
#endif #endif
} }
static struct slab_metadata *get_metadata(struct size_class *c, const void *p) { static struct slab_metadata *get_metadata(const struct size_class *c, const void *p) {
size_t offset = (const char *)p - (const char *)c->class_region_start; size_t offset = (const char *)p - (const char *)c->class_region_start;
size_t index = libdivide_u64_do(offset, &c->slab_size_divisor); size_t index = libdivide_u64_do(offset, &c->slab_size_divisor);
// still caught without this check either as a read access violation or "double free" // still caught without this check either as a read access violation or "double free"
@ -454,7 +454,7 @@ static const u64 canary_mask = __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ ?
0xffffffffffffff00UL : 0xffffffffffffff00UL :
0x00ffffffffffffffUL; 0x00ffffffffffffffUL;
static void set_canary(struct slab_metadata *metadata, void *p, size_t size) { static void set_canary(const struct slab_metadata *metadata, void *p, size_t size) {
memcpy((char *)p + size - canary_size, &metadata->canary_value, canary_size); memcpy((char *)p + size - canary_size, &metadata->canary_value, canary_size);
} }
@ -904,7 +904,7 @@ static int regions_grow(void) {
} }
for (size_t i = 0; i < ra->total; i++) { for (size_t i = 0; i < ra->total; i++) {
void *q = ra->regions[i].p; const void *q = ra->regions[i].p;
if (q != NULL) { if (q != NULL) {
size_t index = hash_page(q) & mask; size_t index = hash_page(q) & mask;
while (p[index].p != NULL) { while (p[index].p != NULL) {
@ -958,7 +958,7 @@ static struct region_metadata *regions_find(const void *p) {
return (r == p && r != NULL) ? &ra->regions[index] : NULL; return (r == p && r != NULL) ? &ra->regions[index] : NULL;
} }
static void regions_delete(struct region_metadata *region) { static void regions_delete(const struct region_metadata *region) {
struct region_allocator *ra = ro.region_allocator; struct region_allocator *ra = ro.region_allocator;
size_t mask = ra->total - 1; size_t mask = ra->total - 1;
@ -1242,7 +1242,7 @@ static void deallocate_large(void *p, const size_t *expected_size) {
struct region_allocator *ra = ro.region_allocator; struct region_allocator *ra = ro.region_allocator;
mutex_lock(&ra->lock); mutex_lock(&ra->lock);
struct region_metadata *region = regions_find(p); const struct region_metadata *region = regions_find(p);
if (region == NULL) { if (region == NULL) {
fatal_error("invalid free"); fatal_error("invalid free");
} }
@ -1385,7 +1385,7 @@ EXPORT void *h_realloc(void *old, size_t size) {
struct region_allocator *ra = ro.region_allocator; struct region_allocator *ra = ro.region_allocator;
mutex_lock(&ra->lock); mutex_lock(&ra->lock);
struct region_metadata *region = regions_find(old); const struct region_metadata *region = regions_find(old);
if (region == NULL) { if (region == NULL) {
fatal_error("invalid realloc"); fatal_error("invalid realloc");
} }
@ -1577,7 +1577,7 @@ static inline void memory_corruption_check_small(const void *p) {
mutex_lock(&c->lock); mutex_lock(&c->lock);
struct slab_metadata *metadata = get_metadata(c, p); const struct slab_metadata *metadata = get_metadata(c, p);
void *slab = get_slab(c, slab_size, metadata); void *slab = get_slab(c, slab_size, metadata);
size_t slot = libdivide_u32_do((const char *)p - (const char *)slab, &c->size_divisor); size_t slot = libdivide_u32_do((const char *)p - (const char *)slab, &c->size_divisor);
@ -1625,7 +1625,7 @@ EXPORT size_t h_malloc_usable_size(H_MALLOC_USABLE_SIZE_CONST void *p) {
struct region_allocator *ra = ro.region_allocator; struct region_allocator *ra = ro.region_allocator;
mutex_lock(&ra->lock); mutex_lock(&ra->lock);
struct region_metadata *region = regions_find(p); const struct region_metadata *region = regions_find(p);
if (region == NULL) { if (region == NULL) {
fatal_error("invalid malloc_usable_size"); fatal_error("invalid malloc_usable_size");
} }
@ -1641,7 +1641,7 @@ EXPORT size_t h_malloc_object_size(void *p) {
return 0; return 0;
} }
void *slab_region_end = get_slab_region_end(); const void *slab_region_end = get_slab_region_end();
if (p < slab_region_end && p >= ro.slab_region_start) { if (p < slab_region_end && p >= ro.slab_region_start) {
thread_unseal_metadata(); thread_unseal_metadata();
@ -1652,7 +1652,7 @@ EXPORT size_t h_malloc_object_size(void *p) {
mutex_lock(&c->lock); mutex_lock(&c->lock);
struct slab_metadata *metadata = get_metadata(c, p); const struct slab_metadata *metadata = get_metadata(c, p);
size_t slab_size = get_slab_size(get_slots(class), size_class); size_t slab_size = get_slab_size(get_slots(class), size_class);
void *slab = get_slab(c, slab_size, metadata); void *slab = get_slab(c, slab_size, metadata);
size_t slot = libdivide_u32_do((const char *)p - (const char *)slab, &c->size_divisor); size_t slot = libdivide_u32_do((const char *)p - (const char *)slab, &c->size_divisor);
@ -1685,7 +1685,7 @@ EXPORT size_t h_malloc_object_size(void *p) {
struct region_allocator *ra = ro.region_allocator; struct region_allocator *ra = ro.region_allocator;
mutex_lock(&ra->lock); mutex_lock(&ra->lock);
struct region_metadata *region = regions_find(p); const struct region_metadata *region = regions_find(p);
size_t size = region == NULL ? SIZE_MAX : region->size; size_t size = region == NULL ? SIZE_MAX : region->size;
mutex_unlock(&ra->lock); mutex_unlock(&ra->lock);
@ -1698,7 +1698,7 @@ EXPORT size_t h_malloc_object_size_fast(void *p) {
return 0; return 0;
} }
void *slab_region_end = get_slab_region_end(); const void *slab_region_end = get_slab_region_end();
if (p < slab_region_end && p >= ro.slab_region_start) { if (p < slab_region_end && p >= ro.slab_region_start) {
size_t size = slab_usable_size(p); size_t size = slab_usable_size(p);
return size ? size - canary_size : 0; return size ? size - canary_size : 0;